report no. : e920735 emc test report - bnt.robnt.ro/data/produse/files/bs-800rc_bs-xxx_declaratie...
TRANSCRIPT
REPORT NO. : E920735
Page 1 of 49
EMC TEST REPORTAccording to
1) EN 55022: 1998+A1: 20002) EN 61000-3-2:20003) EN 61000-3-3: 1995+A1: 20014) EN 50130-4:1995+A1:1998
EN 61000-4-2: 1995+A2: 2001 / EN 61000-4-3: 1996+A2: 2001EN 61000-4-4: 1995+A2: 2001 / EN61000-4-5: 1995+A1: 2001EN 61000-4-6: 1996+A1: 2001 / EN 61000-4-11: 1994+A1: 2001Main Supply Voltage Variations
EQUIPMENT � Barrier (Curtain) Sensor
MODEL NO. � BS-200, BS-400, BS-600, BS-800
APPLICANT �YUAN HSUN ELECTRIC CO., LTD.
NO. 57, CHUNG HE RD., ZUO-YING DIST., KAOHSIUNG CITY 813, TAIWAN, R. O. C.
Test Engineer SIMON LIU
Checked by HADES HUANG
Issued Date DEC. 12, 2003
The test report shall not be reproduced except in full, without the written approval of the laboratory.The report can’t be used by the client to claim product endorsement by PEP Testing Laboratory.This report is only for the equipment which described in page 7.
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TABLE OF CONTENTS
1. General 4
1.1 General Information
1.2 Place of Measurement
1.3 Test standard
2. Product Information/Product Technical Judgement 7
3. EUT Description and Test Conclusion 8
4. Modification(s) 9
5. Test Software Used 9
6. Support Equipment Used 10
7. EN 55022 Conducted Disturbance Test 11
8. EN 55022 Radiated Disturbance Test 12
8.1 Test Description
8.2 Test Setup
8.3 Test Limits
8.4 Test Setup photos
8.5 Test Data
9. EN 61000-4-2 Electrostatic Discharge Test 18
9.1 Test Description
9.2 Test Setup
9.3 Test Limits
9.4 Discharge Drawing
9.5 Test Data
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10. EN 61000-4-3 Radio-Frequency Electromagnetic Field Test 26
10.1 Test Description
10.2 Test Block Diagram
10.3 Test Limits
10.4 Test Setup Photo
11. EN 61000-4-4 Fast Transient Burst Test 31
11.1 Test Description
11.2 Test Setup
11.3 Test Limits
11.4 Test Setup Photo
11.5 Test Data
12. EN 61000-4-5 Surge Immunity Test 37
12.1 Test Description
12.2 Test Setup
12.3 Test Limits
12.4 Test Setup Photo
12.5 Test Data
13. EN 50130-4 Clause 7 Main Supply Voltage Variations Test 43
13.1 Tests Description
14. The List of Test Instruments 45
15. EUT Photographs 47
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1. General
1.1 General Information :
Applicant : YUAN HSUN ELECTRIC CO., LTD.
NO. 57, CHUNG HE RD., ZUO-YING DIST., KAOHSIUNG CITY 813, TAIWAN, R. O. C.
Manufacturer : YUAN HSUN ELECTRIC CO., LTD.
NO. 57, CHUNG HE RD., ZUO-YING DIST., KAOHSIUNG CITY 813, TAIWAN, R. O. C.
Measurement Procedure : EN 55022 & EN 50130-4
1.2 Place of Measurement
PEP TESTING LABORATORY
12-3Fl, No. 27-1, Lane 169, Kang-Ning St., Hsi-Chih,Taipei Hsien, Taiwan, R. O. C.TEL : 8862-26922097 FAX : 8862-26956236
NVLAP LAB CODE 200097-0FCC Registration No. : 90868Nemko Aut. No. : ELA133BSMI Aut. No. : SL2-IN-E-11,SL2-A1-E-11VCCI Registration No. : C-493/R-477
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1.3 Test standard
Tested for compliance with :
EN 55022:1998 - Information Technology Equipment – Radio disturbance
+A1: 2000 characteristics - Limits and methods of measurement
EN 61000-3-2: 2000 - Electromagnetic compatibility (EMC) Part 3-2: Limits –
Limits for harmonic current emissions (equipment input
Current up to and including 16A per phase
EN 61000-3-3: 1995 - Electromagnetic compatibility (EMC) Part 3-2: Limits –
+A1: 2001 Limitation of voltage fluctuations and flicker in low-voltage
supply systems for equipment with rated current up to 16A
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EN 50130-4:1995+A1: 1998
- Alarm systems – Part 4. Electromagnetic compatibility
Product family standard: Immunity requirements for
components of fire, intruder and social alarm systems
EN 61000-4-2: 1995 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A2: 2001 measurement techniques, Section 2: Electrostatic discharge
immunity test Basic EMC Publication
EN 61000-4-3: 1996 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A2: 2001 measurement techniques, Section 3: Radiated, radio-
Frequency, electromagnetic field immunity test
EN 61000-4-4: 1995 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A2: 2001 measurement techniques, Section 4: Electrical fast transient
/ Burst immunity test Basic EMC publication
EN 61000-4-5: 1995 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A1: 2001 measurement techniques, Section 5: Surge immunity test
(includes corrigendum: 1995)
EN 61000-4-6: 1996 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A1: 2001 measurement techniques, Section 6: Immunity to conducted
disturbances, induced by radio-frequency fields
EN 61000-4-11: 1994 - Electromagnetic compatibility (EMC) Part 4: Testing and
+A1: 2001 measurement techniques, Section 11: Voltage dips, short
interruptions and voltage variations immunity tests
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2. Product Information
a. EUT Name: Barrier (Curtain) Sensor
b. Model No.� BS-800
c. CPU Type� N/A
d. CPU Frequency� N/A
e. Crystal/Oscillator(s) � 4 MHz
f. Chassis Used� ABS
g. Port/Connector(s) � N/A
h. Power Rating� DC 10~30V
i. Condition of the EUT : Prototype Sample Engineering Sample
Production Sample
j. Test Item Receipt Date : DEC. 08, 2003
2a. Product Technical Judgement
Based on the major electrical and mechanical constrictions of the EUT, We hereby declare that the subject product does fully comply with the following EMC requirementswithout additional test required :
1) EN 61000-3-2: 20002) EN 61000-3-3: 1995+A1: 20013) EN 61000-4-6: 1996+A1: 20014) EN 61000-4-11: 1994+A1: 2001
These test standards will be applicable to both of PEP EMC verification and declarationof conformity for technical reference.
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3. EUT Description and Test Conclusion
The equipment under test (EUT) is Barrier (Curtain) Sensor model BS-800, BS-600, BS-400and BS-200. These models have identical electrical designed and construction except thefollowings are different:
Model No. BS-800 BS-600 BS-400 BS-200
Beams 8 beams 6 beams 4 beams 2 beams
Height (housing) 201 cm 153 cm 105 cm 57 cmAfter verifying these models, we only took the worst-case model BS-800 for test. The EUT that consists of two parts is used for the application of indoor/outdoor security system. Themaximum sensing range of EUT is 8 meters outdoor. DC 10V~30V from any DC powersource is required to operate EUT. For more detail specification about the EUT, please refer to the user’s manual.
Test method: According to the major function designed, the EUT configuration was set upby the following steps for test.(A) Erect EUT and arrange its placement within sensing range.(B) Feed EUT DC 12V from DC power supply.The EUT configuration was set to proceed with test. The test was carried out on EUT operational condition and the worst-case test result was recorded and provided in this report.
Conducted emission test:N/A
Radiated emission test:The maximum readings were found by varying the height of antenna and then rotating theturntable. Both polarization of antenna, horizontal and vertical, are measured. The effect ofvarying the position of the interface cables has been investigated to find the configurationthat produces maximum emission.The highest emissions were also analyzed in details by operating the spectrum analyzer infixed tuned quasi-peak mode to determine the precise amplitude of the emissions.
In addition, the following test standards are applicable for related tests being carried out onthe same EUT configuration and operational condition kept during radiated emission test :
EN 61000-4-2, EN 61000-4-3, EN 61000-4-4 and EN 61000-4-5, and Main Supply Voltage
Variations.
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4. Modification(s):
N/A
5. Test Software Used
N/A
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6. Support Equipment Used
1. DC Power Supply Manufacturer�ABMModel Number�9306DPower Cord�Non-Shielded, Detachable, 1m
2. DC Power Supply Manufacturer�ESCORTModel Number�3030SDPower Cord�Non-Shielded, Detachable, 1m
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7. EN 55022 Conducted Disturbance Test
Test Standard Model No. Result
EN 55022 BS-800 N/A
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8. EN 55022 Radiated Disturbance Test
Test Standard Model No. Result
EN 55022 BS-800 Passed
8.1 Radiated Disturbance Test Description
Preliminary measurements were made indoors chamber at 3 meter using broadbandantennas, broadband amplifier, and spectrum analyzer to determine the frequencyproducing the maximum EME. Appropriate precaution was taken to ensure that allEME from the EUT were maximized and investigated. The system configuration,clock speed, mode of operation or video resolution, turntable azimuth with respect to the antenna were noted for each frequency found. The spectrum was scanned from 30 to 1000 MHz using logbicon antenna. Above 1GHz, linearly polarized double ridgehorn antenna were used.
Final measurements were made outdoors at 10-meter test range using biconical,dipole antenna or horn antenna. The test equipment was placed on a wooden benchsituated on a 1.5x1 meter area adjacent to the measurement area. Sufficient time for the EUT, support equipment, and test equipment was allowed in order for them towarm up to their normal operating condition. Each frequency found during pre-scanmeasurements was re-examined and investigated using Quasi-Peak Adapter. Thedetector function was set to CISPR quasi-peak mode and the bandwidth of thereceiver was set to 120kHz.
The half-wave dipole antenna was tuned to the frequency found during preliminaryradiated measurements. The EUT, support equipment and interconnecting cableswere re-configured to the set-up producing the maximum emission for the frequencyand were placed on top of a 0.8-meter high non-metallic 1 x 1.5 meter table. TheEUT, support equipment, and interconnecting cables were re-arranged andmanipulated to maximize each EME emission. The turntable containing the systemwas rotated; the antenna height was varied 1 to 4 meters and stopped at the azimuth or height producing the maximum emission.
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8.2 Radiated Disturbance Test Setup
(EUT)
10m
4m
1m0.8mGROUND
PLANE TURN TABLETO RECEIVER
EUT = Equipment Under Test
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8.3 Radiated Disturbance Test Limits
Limits for radiated disturbance of Class A ITE ata measuring distance of 10 m
Frequency Field StrengthMHz dB( V/m)
30 to 230 40
230 to 1 000 47
NOTES1 The lower limit shall apply at the transition frequency.2 Additional provisions may be required for cases where interference
occurs.
Limits for radiated disturbance of Class B ITE ata measuring distance of 10 m
Frequency Field StrengthMHz dB( V/m)
30 to 230 30
230 to 1 000 37
NOTES1 The lower limit shall apply at the transition frequency.2 Additional provisions may be required for cases where interference
occurs.
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8.4 Radiated Disturbance Test Setup Photos
< FRONT VIEW >
< REAR VIEW >
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8.5 Radiated Disturbance Test Data
Model No. : BS-800Frequency range : 30MHz to 1GHz Detector : Quasi-Peak ValueFrequency range : above 1GHz Detector : Quasi-Peak/Average ValueTemperature : 27o C Humidity : 56 %
Antenna polarization : HORIZONTAL ; Test distance : 10m ;
Over Limit Read Antenna Cable Preamp
Freq. Level Limit Line Level Factor Loss Factor Azimuth Antenna
(MHz) (dBuV/m) (dB) (dBuV/m) (dBuV) (dB) (dB) (dB) ( angle) High(m)
Note :
1. Level = Read Level + Antenna Factor + Cable Loss – Preamp Factor2. Over Limit = Level – Limit Line
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Model No. : BS-800Frequency range : 30MHz to 1GHz Detector : Quasi-Peak ValueFrequency range : above 1GHz Detector : Quasi-Peak/Average ValueTemperature : 27 o C Humidity : 56 %
Antenna polarization : VERTICAL ; Test distance : 10m ;
Over Limit Read Antenna Cable Preamp
Freq. Level Limit Line Level Factor Loss Factor Azimuth Antenna
(MHz) (dBuV/m) (dB) (dBuV/m) (dBuV) (dB) (dB) (dB) ( angle) High(m)
Note :
1. Level = Read Level + Antenna Factor + Cable Loss – Preamp Factor2. Over Limit = Level – Limit Line
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9. EN 61000-4-2 Electrostatic Discharge Test
Test standard Model No. Result
EN 61000-4-2 BS-800 Passed
Criteria for Compliance:
There shall be no damage, malfunction or change of status due to the conditioning.
Flickering of an indicator during the application of the discharges is permissible,
providing that there is no residual change in the EUT or any change in outputs.
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9.1 Electrostatic Discharge Test Description
This standard relates to equipment, systems, sub-systems and peripherals which may be
involved in static electricity discharges owing to environmental and installation conditions.
such as low relative humidity, use of low-conductivity (artificial-fibre) carpets, vinyl garments,
etc., which may exist in allocations classified in standards relevant to electrical and electronic
equipment.
The test set-up shall consist of a wooden able, 0.8 m high standing on the ground reference
plane. A horizontal coupling plane(HCP), 1.6 m x 0.8 m, shall be placed on the table. The
EUT and cables shall be isolated from the coupling plane by an insulating support 0.5 mm
thick .
A ground reference plane shall be provided on floor of the laboratory. It shall be metallic
sheet of 0.25 mm minimum thickness. The minimum size of the reference plane is 1 m, the
exact size depending on the dimensions of the EUT .
It shall project beyond the EUT or coupling plane by at least 0.5 m on all sides. and shall be
connected to the protective grounding system.
In order to minimize the impact of environmental parameters on test results, the tests shall be
carried out in climatic and electromagnetic reference conditions.
Climatic conditions- ambient temperature: 15 to 35 ;
- relative humidity: 30 % to 60%
- atmospheric pressure: 86 KPa (860 mbar) to 106 KPa (1 060 mbar).
NOTE – Any other values are specified in the product specification.
Electromagnetic conditions
The electromagnetic environment of the laboratory shall not influence the test results.
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9.2 Electrostatic Discharge Test Setup
- Example of test set-up for table-top equipment,
laboratory tests
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9.3 Electrostatic Discharge Test Limits
Test voltages1):
Air discharges (kV) 2; 4 & 8
Contact discharges (kV) 2; 4 & 6
Polarity + & -
Number of discharges per point for each voltage and polarity 10
Interval between discharges (s) =11)The test voltages specified are the open-circuit voltages.
The test voltages for the lower severity levels are included
because all the lower severity levels must also be satisfied.
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9.4 Direct Discharge Test Drawing
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Indirect Discharge Test Drawing
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9.5 Electrostatic Discharge Test Data(Direct Discharge)
Model No. : BS-800
Test Item : Direct Discharge Instrument : NoiseKen ESS-100L
Temperature : 27 Relative Humidity : 43 %RH
Storage Capacitor : 150 pf Discharge Resistor : 330 Ohm
Discharge Rate : < 1 / Sec
Contact Discharge Air Discharge
2 KV 4 KV 6 KV 8 KV 2 KV 4 KV 6 KV 8 KV
+ - + - + - + - + - + - + - + -
1 P P P P P P / / P P P P P P P P
2 P P P P P P / / P P P P P P P P
3 P P P P P P / / P P P P P P P P
4 P P P P P P / / P P P P P P P P
5 P P P P P P / / P P P P P P P P
6 P P P P P P / / P P P P P P P P
7 P P P P P P / / P P P P P P P P
8 P P P P P P / / P P P P P P P P
9 P P P P P P / / P P P P P P P P
10 P P P P P P / / P P P P P P P P
1. “ P ” - - - - means the EUT function is correct during the test .
2. “ / ” - - - - no test.
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Electrostatic Discharge Test Data(Indirect Discharge)
Model No. : BS-800
Test Item : Indirect Discharge Instrument : NoiseKen ESS-100L
Temperature : 27 Relative Humidity : 43 %RH
Storage Capacitor : 150 pf Discharge Resistor : 330 Ohm
Discharge Rate : < 1 / Sec
Contact Discharge Air Discharge
2 KV 4 KV 6 KV 8 KV 2 KV 4 KV 8 KV 15 KV
+ - + - + - + - + - + - + - + -
1 P P P P P P / / / / / / / / / /
2 P P P P P P / / / / / / / / / /
3 P P P P P P / / / / / / / / / /
4 P P P P P P / / / / / / / / / /
5 / / / / / / / / / / / / / / / /
6 / / / / / / / / / / / / / / / /
7 / / / / / / / / / / / / / / / /
8 / / / / / / / / / / / / / / / /
9 / / / / / / / / / / / / / / / /
10 / / / / / / / / / / / / / / / /
1. “ P ” - - - - means the EUT function is correct during the test .
2. “ / ” - - - - no test.
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10. EN 61000-4-3 Radio-Frequency Electromagnetic Field Test
Test standard Model No. Result
EN 61000-4-3 BS-800 Passed
Field Strength : 10 V/M ,
Modulation : AM 80 % , 1KHz . ON ( YES ) . OFF ( )
Start : 80 MHz , Stop : 1000 MHz . DC Power : 12 Vdc
Pulse modulation: 1 Hz ON ( YES ) . OFF ( )
Start : 80 MHz , Stop : 1000 MHz . DC Power : 12 Vdc
Criteria for Compliance:
There shall be no damage, malfunction or change of status due to the conditioning.
Flickering of an indicator during the conditioning is permissible, providing that there
is no residual change in the EUT or any change in outputs.
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10.1 Radio-Frequency Electromagnetic Field Test Description
Most electronic equipment is, in some manner, affected by electromagnetic radiation.
This radiation is frequently generated by such sources as the small hand-held radio
transceivers that are used by operating, maintenance and security personnel, fixed-station
radio and television transmitters, vehicle radio transmitters, and various industrial
electromagnetic sources.
In addition to electromagnetic energy deliberately generated, there is also spurious radiation
caused by devices such as welders, thyristors, fluorescent lights, switches operating inductive
loads, etc. For the most part, this interference manifests itself as conducted electrical
interference and, as such, is dealt with in other parts of this standard. Methods employed to
prevent effects from electromagnetic fields will normally also reduce the effects from these
sources.
The electromagnetic environment is determined by the strength of the electromagnetic field
(field strength in volts per metre). The field strength is not easily measured without
sophisticated instrumentation nor is it easily calculated by classical equations and formulae
because of the effect of surrounding structures or the proximity of other equipment that will
distort and/or reflect the electromagnetic waves.
All testing of equipment shall be performed in a configuration as close as possible to the
installed case. Wiring shall be consistent with the manufacturer’s recommended procedures,
and the equipment shall be in its housing with all covers and access panels in place, unless
otherwise stated.
If the equipment is designed to be mounted in a panel, rack or cabinet, it shall be tested in this
configuration.
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10.2 Radio-Frequency Electromagnetic Field Test Block Diagram
RF Source Power Amplifier Antenna
Field Monitor
FieldProbe
EUT
RF Input
Anechoic Chamber
Detector Input
Field Leveling Signal
BulkheadFeedthrough
FiberOpticCable
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10.3 Radio-Frequency Electromagnetic Field Test Limits
Frequency range (MHz) 80 to 1000
Field strength1) (V/m) 10
Modulation:
Amplitude modulation 80%, 1 kHz, sinusoidal
Pulse modulation 1 Hz (0.5 s ON: 0.5 s OFF)
1) The field strength quoted is the RMS value for the continuous wave, before modulation.
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10.4 Radio-Frequency Electromagnetic Field Test Setup Photo
< FRONT VIEW >
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11. EN 61000-4-4 Fast Transient Burst Test
Test standard Model No. Result
EN 61000-4-4 BS-800 Passed
Criteria for Compliance:
There shall be no damage, malfunction or change of status due to the conditioning.
Flickering of an indicator during the application of the bursts is permissible, providing
that there is no residual change in the EUT or any change in outputs.
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11.1 Fast Transient Bursts Test Description
The repetitive fast transient test is a test with bursts consisting of a number of fast transients,
coupled into power supply, control and signal ports of electrical and electronic equipment.
Significant for the test are the short rise time, the repetition rate and the low energy of the
transients.
The test shall be carried out on the basis of a test plan including verification of the
performances of the EUT as defined in the technical specification.
Climatic conditions
The tests shall be carried out in standard climatic conditions in accordance with IEC 68-1:- ambient temperature: 15 to 35
- relative humidity: 25% to 75%
- atmospheric pressure: 86kPa (860 mbar) to 106Kpa (1 060 mbar)
NOTE – Any other values are specified in the product specification.
Electromagnetic conditions
The electromagnetic conditions of the laboratory shall be such to guarantee the correct
operation of the EUT in order not to influence the test results.
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11.2 Fast Transient Burst Test Setup
Couping/decupling sectionsshall be mounted directly onthe reference ground plane.Bonding connections shall beas short as possibke.
Capacitoror clamp
Decouplingnetwork
Couplingdevice
Lines
Lines/terminalsto be tested
lnsulatingsupport
EUT
Reference plane
Electrical fasttransievt/burst
generatorThis length shouldbe < 1 m
Grounding conection accordingto the manufacturer’s specification.Length to be specified in the test plan.
Block-diagram for electrical fast transient/burst immunity test
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11.3 Fast Transient Burst Test Limits
Test voltages:1) 0.5; 1 & 2
a. c. mains supply lines (kV)
other supply/signal lines (kV) 0.25; 0.5 & 1
Polarity + & -
Number of applications for each voltage and polarity 1
+0.2 Duration per application (min) 1
- 0
1) The test voltages specified are the open-circuit voltages. The test voltages for the lower
severity levels are included because all the lower severity levels must also be satisfied.
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11.4 Fast Transient Burst Test Setup Photo
< FRONT VIEW >
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11.5 Fast Transient Burst Test Data
MODEL NO. : BS-800
REGULATION : According to EN 61000-4-4 ( 1995+A2: 2001 ) Spec .
TEST RESULT
Temperature : 27 degree . Duration of tests : 1 min .
Relative Humidity : 43 % RH . Time between test : 60 second .
Pulse : 5 / 50 ns . AC Power : N/A Vac .
Burst : 15 ms / 300 ms . DC Power : 12 Vdc .
0.5 KV 1 KV 2KVVoltage \ Polarity
\ Test Point \ Mode \ Result + - + - + -
L P1) P P P / /
N P P P P / /Power Line
G /3) / / / / /
0.25 KV 0.5 KV 1 KV
+ - + - + - Signal Lines4)
Clamp Test
/ / / / / /
Note : 1. “ P “ mean the EUT function is correct during the test .
2. “ F “ - - - - Fail
3. “ / ” - - - - no test
4. Applicable only to cables which according to the manufacturer's specification
supports communication on cable lengths greater than 3m.
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12. EN 61000-4-5 Surge Immunity Test
Test standard Model No. Result
EN 61000-4-5 BS-800 Passed
Criteria for Compliance:
There shall be no damage, malfunction or change of status due to the conditioning.
Flickering of an indicator during the application of the surge is permissible, providing
that there is no residual change in the EUT or any change in outputs.
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12.1 Surge Immunity Test Description
The task of the described laboratory test is to find the reaction of the EUT under specified
operational conditions caused by surge voltages from switching and lightning effects at certain
threat levels.
The following equipment is part of the test set-up :
- equipment under test (EUT);
- auxiliary equipment (AE);
- cables (of specified type and length);
- coupling device (capacitive or arrestors);
- test generator (combination wave generator, 1.2/50 µs generator);
- decoupling network/protection devices;
- additional resistors, 10 ohm and 40 ohm
The surge is to be applied to the EUT power supply terminals via the capacitive coupling
network. Decoupling networks are required in order to avoid possible adverse effects on
equipment not under test that may be powered by the same lines and to provide sufficient
decoupling impedance to the surge wave so that the specified wave may be developed on the
lines under test .
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12.2 Surge Immunity Test Setup
AC(DC)power supplynetwork
Example of test set- up for capacltive coupling on a.c./d.c. kines;line-to-earth coupling (according to 7.2)
Decoupling network
Combination wavegenerator
C=18µFL
N
PE
EUT
Earth reference
L
Example of test set- up for capacltive coupling on a.c./d.c. kines;line-to-line coupling (according to 7.2)
N
L
PE
EUT
Earth reference
AC(DC)power supplynetwork
Decoupling network
L
Combination wavegenerator
C = 9µFR = 10 ohm
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12.3 Surge Immunity Test Limits
Test voltages1) :
a. c. mains supply lines:
- line-to-line (kV) 0.5 & 1
- line-to-ground2) (kV) 0.5; 1& 2
other supply/signal lines:
- line-to-ground3) (kV) 0.5 & 1
Polarity + & - Minimum number of surges at each polarity, voltage, coupling mode and line:
- a. c. mains supply lines 204)
- other supply/signal lines 5
1) The test voltages specified are the open-circuit voltages. The test
voltages for the lower severity levels are included, because all
the lower severity levels must also be satisfied.2) via a 10 O series resistor.3) via a 10 O series resistor.4) 5 at each zero-crossing point and at the maximum and minimum
points on he mains voltage wave.
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12.4 Surge Immunity Test Setup Photo
< FRONT VIEW >
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12.5 Surge Immunity Test Data
MODEL NO : BS-800
TEST SETUP : According to EN 61000-4-5 (1995+A1: 2001)
Temperature : 27 Relative Humidity 43 %RH
Waveform : 1,2 x 50 µs Test rate : 15 sec
Times 20 times / each condition DC power 12 VDC
\Phase
\Voltage\Mode\Polarity\Result
0 45 90 135 180 215 270 315
+ / / / / / / / / a.c. mains supply
0.5KV
Line
Neutral- / / / / / / / /
+ / / / / / / / / a.c. mains supply
1KV
Line
Neutral- / / / / / / / /
+ / / / / / / / / Line
Ground - / / / / / / / /
+ / / / / / / / /
a.c. mains
supply
0.5KV
1KV
2KV
Neutral
Ground - / / / / / / / /
+ P P P P P P P P Line
Ground - P P P P P P P P
+ / / / / / / / /
Signal line
0.5KV
1KV Neutral
Ground - / / / / / / / /
Note : 1. “ P ” means the EUT function is correct during the test
2. “ / ” no test
REPORT NO. : E920735
Page 43 of 49
13. EN 50130-4 Clause 7 Mains Supply Voltage Variations Test
Test standard Model No. Result
EN 50130-4 BS-800 Passed Clause 7
Criteria for Compliance:
There shall be no damage, malfunction or change of status due to the different
supply voltage conditions. The EUT shall meet the acceptance criteria for the
functional test, during the conditioning.
REPORT NO. : E920735
Page 44 of 49
13.1 EN 50130-4 Clause 7 Mains Supply Voltage Variations Tests Description
To demonstrate the ability of the equipment to function correctly over the anticipated range
of mains supply voltage conditions.
Subject the specimen to each of the power supply conditions, indicated in table 1, until
temperature stability is reached:
Table 1
Supply voltage max (Umax) Unom + 10%
Supply voltage min (Umin) Unom – 15%
Unom = Nominal mains voltage. Where provision is made to
Adapt the equipment to suit a number of nominal supply voltages
(e.g. by transformer tap changing), the above conditioning
severity shall be applied for each nominal voltage, with the
equipment suitably adapted. For equipment which is claimed to
be suitable for a range of nominal mains voltages(e.g.220/240 V)
without adaptation, Umax = (Maximum Unom ) + 10%,and Umin =
(Minimum Unom) – 15%. In any case the range of Unom must
include the European nominal mains voltage of 230 V.
REPORT NO. : E920735
Page 45 of 49
14. The List of Test Instruments
Test Mode Instrument Model No. Serial No. Next Cal. Date Cal. Interval
R & S
ReceiverESHS10 830223/008 May 22, 2004 1Year
Rolf Heine
LISNNNB-4/63TL 98008 May 01, 2004 1Year
R & S
LISNESH3-Z5 844982/039 Aug. 06, 2004 1Year
Spectrum
AnalyzerR3261A 91720076 June 08, 2004 1Year
RF Cable Rg400 N/A May 12, 2004 1Year
Conduction
( No.1)
Schaffner
ISNT411 N/A June 29, 2004 1Year
R & S
ReceiverESVS30 863342/012 May 22, 2004 1Year
Schaffner
Pre-amplifierCPA9232 1028 May 20, 2004 1Year
COM-Power
Horn Ant.
AH-118
(1GHz~18GHz)10095 May 21, 2004 2Year
Schwarzbeck
Precision Dipole
Ant
VHAP
(30MHz~1GHz)
970 + 971
953 + 954June 26, 2006 3Year
R &S Signal
GeneratorSMY01 841104/037 Apr. 29, 2004 2Year
RF Cable No. 1 N/A May 11, 2004 1Year
Radiation
(OP No.1)
EMCO
Antenna
3142B
(26MHz~2GHz)9904-1370 Aug. 24, 2004 1Year
REPORT NO. : E920735
Page 46 of 49
TestMode
Testitem
Instrument Model No. Serial No. Next Cal. Date Cal.Interval
4-2ESD TestSystem
ESS-100L
(A)TC-815D4099C01970 July 14, 2004 1Year
4-3ComtestG-Strip G-320 CC112-0008 Oct. 01, 2005 2Year
4-4KeyTek EFT
Noise Generator CE-40 9508266 Jan. 27, 2005 2Year
4-5HAEFELY
Surge Tester PSURGE 4 083665-17 Dec. 18, 2004 2Year
EMS
(NO.1)
4-3
4-6
HP SignalGenerator 8648A 3619U00426 Sep. 14, 2004 1Year
REPORT NO. : E920735
Page 47 of 49
15. EUT PhotographsMODEL NO. : BS-800
REPORT NO. : E920735
Page 48 of 49
REPORT NO. : E920735
Page 49 of 49
VERIFICATIONof conformity with
European EMC Directive
No. E920735
Document holder: YUAN HSUN ELECTRIC CO., LTD.
Type of equipment: Barrier (Curtain) Sensor
Type designation: BS-200, BS-400, BS-600, BS-800
A sample of the equipment has been tested for CE-marking according to the EMC Directive, 89/336/EEC. &92/31/EEC & 93/68/EEC Standard(s) used for showing compliance with the essential requirements of thedirective:
Standard(s):
EN 55022 : 1998+A1: 2000 Class BEN 61000-3-2:2000EN 61000-3-3:1995+A1: 2001
Performance CriterionEN 50130-4 :1995+A1:1998 EN 61000-4-2: 1995+A2: 2001
EN 61000-4-3: 1996+A2: 2001EN 61000-4-4: 1995+A2: 2001EN 61000-4-5: 1995+A1: 2001EN 61000-4-6: 1996+A1: 2001EN 61000-4-11: 1994+A1: 2001Main Supply Voltage Variations
The referred test report(s) show that the product fulfills the requirements in the EMC Directive for CE marking. On this basis, together with the manufacturer’s own documented production control, the manufacturer (or his European authorized representative) can in his EC Declaration of Conformity verify compliance with the EMC Directive.
Signed for and on behalf of PEP Testing Laboratory
Date: DEC. 12, 2003 M. Y. Tsui / President
Declaration of ConformityThe following
Applicant : YUAN HSUN ELECTRIC CO., LTD.
Equipment : Barrier (Curtain) Sensor
Model No. : BS-200, BS-400, BS-600, BS-800
Report No. : E920735
is herewith confirmed to comply with the requirements set out in the Council Directive on
the Approximation of the Laws of the Member States relating to Electromagnetic
Compatibility(89/336/EEC) and the amendments in the Council Directive 92/31/EEC,
93/68/EEC.
For the evaluation of above mentioned Directives, the following standards were applied:
1) EN 55022: 1998+A1 : 2000 Class B2) EN 61000-3-2 : 20003) EN 61000-3-3 : 1995+A1: 20014) EN 50130-4:1995 +A1:1998 EN 61000-4-2 : 1995+A2: 2001
EN 61000-4-3 : 1996+A2: 2001EN 61000-4-4 : 1995+A2: 2001EN 61000-4-5 : 1995+A1: 2001EN 61000-4-6 : 1996+A1: 2001EN 61000-4-11 : 1994+A1: 2001Main Supply Voltage Variations
The following manufacturer is responsible for this declaration:
YUAN HSUN ELECTRIC CO., LTD.
NO. 57, CHUNG HE RD., ZUO-YING DIST., KAOHSIUNG CITY 813,
TAIWAN, R. O. C.
TAIWAN / DEC. 12, 2003
Place and Date Signature of responsible Person